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|
package icingadb_test
import (
"bytes"
"context"
_ "embed"
"encoding/json"
"fmt"
"github.com/go-redis/redis/v8"
"github.com/icinga/icinga-testing/services"
"github.com/icinga/icinga-testing/utils"
"github.com/icinga/icinga-testing/utils/eventually"
"github.com/icinga/icinga-testing/utils/pki"
"github.com/jmoiron/sqlx"
"github.com/stretchr/testify/assert"
"github.com/stretchr/testify/require"
"go.uber.org/zap"
"io/ioutil"
"math"
"net/http"
"sort"
"strconv"
"testing"
"text/template"
"time"
)
//go:embed history_test_zones.conf
var historyZonesConfRaw string
var historyZonesConfTemplate = template.Must(template.New("zones.conf").Parse(historyZonesConfRaw))
func TestHistory(t *testing.T) {
t.Run("SingleNode", func(t *testing.T) {
testHistory(t, 1)
})
t.Run("HA", func(t *testing.T) {
testHistory(t, 2)
})
}
func testHistory(t *testing.T, numNodes int) {
rdb := getDatabase(t)
ca, err := pki.NewCA()
require.NoError(t, err, "generating a CA should succeed")
type Node struct {
Name string
Icinga2 services.Icinga2
IcingaClient *utils.Icinga2Client
// Redis server and client for the instance used by the Icinga DB process.
Redis services.RedisServer
RedisClient *redis.Client
// Second Redis server and client to verify the consistency of the history streams in a HA setup.
// There is no Icinga DB process reading from this Redis so history events are not removed there.
ConsistencyRedis services.RedisServer
ConsistencyRedisClient *redis.Client
}
nodes := make([]*Node, numNodes)
for i := range nodes {
name := fmt.Sprintf("master-%d", i)
redisServer := it.RedisServerT(t)
consistencyRedisServer := it.RedisServerT(t)
icinga := it.Icinga2NodeT(t, name)
nodes[i] = &Node{
Name: name,
Icinga2: icinga,
IcingaClient: icinga.ApiClient(),
Redis: redisServer,
RedisClient: redisServer.Open(),
ConsistencyRedis: consistencyRedisServer,
ConsistencyRedisClient: consistencyRedisServer.Open(),
}
}
zonesConf := bytes.NewBuffer(nil)
err = historyZonesConfTemplate.Execute(zonesConf, nodes)
require.NoError(t, err, "failed to render zones.conf")
for _, n := range nodes {
cert, err := ca.NewCertificate(n.Name)
require.NoError(t, err, "generating cert for %q should succeed", n.Name)
n.Icinga2.WriteConfig("etc/icinga2/zones.conf", zonesConf.Bytes())
n.Icinga2.WriteConfig("etc/icinga2/features-available/api.conf", []byte(`
object ApiListener "api" {
accept_config = true
accept_commands = true
}
`))
n.Icinga2.WriteConfig("var/lib/icinga2/certs/ca.crt", ca.CertificateToPem())
n.Icinga2.WriteConfig("var/lib/icinga2/certs/"+n.Name+".crt", cert.CertificateToPem())
n.Icinga2.WriteConfig("var/lib/icinga2/certs/"+n.Name+".key", cert.KeyToPem())
n.Icinga2.EnableIcingaDb(n.Redis)
n.Icinga2.EnableIcingaDb(n.ConsistencyRedis)
err = n.Icinga2.Reload()
require.NoError(t, err, "icinga2 should reload without error")
it.IcingaDbInstanceT(t, n.Redis, rdb)
{
n := n
t.Cleanup(func() {
_ = n.RedisClient.Close()
_ = n.ConsistencyRedisClient.Close()
})
}
}
testConsistency := func(t *testing.T, stream string) {
if numNodes > 1 {
t.Run("Consistency", func(t *testing.T) {
var clients []*redis.Client
for _, node := range nodes {
clients = append(clients, node.ConsistencyRedisClient)
}
assertStreamConsistency(t, clients, stream)
})
}
}
eventually.Require(t, func(t require.TestingT) {
for i, ni := range nodes {
for j, nj := range nodes {
if i != j {
response, err := ni.IcingaClient.GetJson("/v1/objects/endpoints/" + nj.Name)
require.NoErrorf(t, err, "fetching endpoint %q from %q should not fail", nj.Name, ni.Name)
require.Equalf(t, 200, response.StatusCode, "fetching endpoint %q from %q should not fail", nj.Name, ni.Name)
var endpoints ObjectsEndpointsResponse
err = json.NewDecoder(response.Body).Decode(&endpoints)
require.NoErrorf(t, err, "parsing response from %q for endpoint %q should not fail", ni.Name, nj.Name)
require.NotEmptyf(t, endpoints.Results, "response from %q for endpoint %q should contain a result", ni.Name, nj.Name)
assert.Truef(t, endpoints.Results[0].Attrs.Connected, "endpoint %q should be connected to %q", nj.Name, ni.Name)
}
}
}
}, 15*time.Second, 200*time.Millisecond)
db, err := sqlx.Connect(rdb.Driver(), rdb.DSN())
require.NoError(t, err, "connecting to mysql")
t.Cleanup(func() { _ = db.Close() })
client := nodes[0].IcingaClient
t.Run("Acknowledgement", func(t *testing.T) {
const stream = "icinga:history:stream:acknowledgement"
hostname := utils.UniqueName(t, "host")
client.CreateHost(t, hostname, map[string]interface{}{
"attrs": map[string]interface{}{
"enable_active_checks": false,
"enable_passive_checks": true,
"check_command": "dummy",
"max_check_attempts": 1,
},
})
processCheckResult(t, client, hostname, 1)
author := utils.RandomString(8)
comment := utils.RandomString(8)
req, err := json.Marshal(ActionsAcknowledgeProblemRequest{
Type: "Host",
Filter: fmt.Sprintf(`host.name==%q`, hostname),
Author: author,
Comment: comment,
})
ackTime := time.Now()
require.NoError(t, err, "marshal request")
response, err := client.PostJson("/v1/actions/acknowledge-problem", bytes.NewBuffer(req))
require.NoError(t, err, "acknowledge-problem")
require.Equal(t, 200, response.StatusCode, "acknowledge-problem")
var ackResponse ActionsAcknowledgeProblemResponse
err = json.NewDecoder(response.Body).Decode(&ackResponse)
require.NoError(t, err, "decode acknowledge-problem response")
require.Equal(t, 1, len(ackResponse.Results), "acknowledge-problem should return 1 result")
require.Equal(t, http.StatusOK, ackResponse.Results[0].Code, "acknowledge-problem result should have OK status")
for _, n := range nodes {
assertEventuallyDrained(t, n.RedisClient, stream)
}
eventually.Assert(t, func(t require.TestingT) {
type Row struct {
Author string `db:"author"`
Comment string `db:"comment"`
}
var rows []Row
err = db.Select(&rows, db.Rebind("SELECT a.author, a.comment FROM history h"+
" JOIN host ON host.id = h.host_id"+
" JOIN acknowledgement_history a ON a.id = h.acknowledgement_history_id"+
" WHERE host.name = ? AND ? < h.event_time AND h.event_time < ?"),
hostname, ackTime.Add(-time.Second).UnixMilli(), ackTime.Add(time.Second).UnixMilli())
require.NoError(t, err, "select acknowledgement_history")
require.Equal(t, 1, len(rows), "there should be exactly one acknowledgement history entry")
assert.Equal(t, author, rows[0].Author, "acknowledgement author should match")
assert.Equal(t, comment, rows[0].Comment, "acknowledgement comment should match")
}, 5*time.Second, 200*time.Millisecond)
testConsistency(t, stream)
})
t.Run("Comment", func(t *testing.T) {
const stream = "icinga:history:stream:comment"
type HistoryEvent struct {
Type string `db:"event_type"`
Author string `db:"author"`
Comment string `db:"comment"`
RemovedBy *string `db:"removed_by"`
}
hostname := utils.UniqueName(t, "host")
client.CreateHost(t, hostname, map[string]interface{}{
"attrs": map[string]interface{}{
"enable_active_checks": false,
"enable_passive_checks": true,
"check_command": "dummy",
},
})
author := utils.RandomString(8)
comment := utils.RandomString(8)
req, err := json.Marshal(ActionsAddCommentRequest{
Type: "Host",
Filter: fmt.Sprintf(`host.name==%q`, hostname),
Author: author,
Comment: comment,
})
require.NoError(t, err, "marshal request")
response, err := client.PostJson("/v1/actions/add-comment", bytes.NewBuffer(req))
require.NoError(t, err, "add-comment")
require.Equal(t, 200, response.StatusCode, "add-comment")
var addResponse ActionsAddCommentResponse
err = json.NewDecoder(response.Body).Decode(&addResponse)
require.NoError(t, err, "decode add-comment response")
require.Equal(t, 1, len(addResponse.Results), "add-comment should return 1 result")
require.Equal(t, http.StatusOK, addResponse.Results[0].Code, "add-comment result should have OK status")
commentName := addResponse.Results[0].Name
// Ensure that downtime events have distinct timestamps in millisecond resolution.
time.Sleep(10 * time.Millisecond)
removedBy := utils.RandomString(8)
req, err = json.Marshal(ActionsRemoveCommentRequest{
Comment: commentName,
Author: removedBy,
})
require.NoError(t, err, "marshal remove-comment request")
response, err = client.PostJson("/v1/actions/remove-comment", bytes.NewBuffer(req))
require.NoError(t, err, "remove-comment")
require.Equal(t, 200, response.StatusCode, "remove-comment")
expected := []HistoryEvent{
{Type: "comment_add", Author: author, Comment: comment, RemovedBy: &removedBy},
{Type: "comment_remove", Author: author, Comment: comment, RemovedBy: &removedBy},
}
if !testing.Short() {
// Ensure that downtime events have distinct timestamps in millisecond resolution.
time.Sleep(10 * time.Millisecond)
expireAuthor := utils.RandomString(8)
expireComment := utils.RandomString(8)
expireDelay := time.Second
req, err = json.Marshal(ActionsAddCommentRequest{
Type: "Host",
Filter: fmt.Sprintf(`host.name==%q`, hostname),
Author: expireAuthor,
Comment: expireComment,
Expiry: float64(time.Now().Add(expireDelay).UnixMilli()) / 1000,
})
require.NoError(t, err, "marshal request")
response, err = client.PostJson("/v1/actions/add-comment", bytes.NewBuffer(req))
require.NoError(t, err, "add-comment")
require.Equal(t, 200, response.StatusCode, "add-comment")
// Icinga only expires comments every 60 seconds, so wait this long after the expiry time.
time.Sleep(expireDelay + 60*time.Second)
expected = append(expected,
HistoryEvent{Type: "comment_add", Author: expireAuthor, Comment: expireComment},
HistoryEvent{Type: "comment_remove", Author: expireAuthor, Comment: expireComment},
)
}
for _, n := range nodes {
assertEventuallyDrained(t, n.RedisClient, stream)
}
eventually.Assert(t, func(t require.TestingT) {
var rows []HistoryEvent
err = db.Select(&rows, db.Rebind("SELECT h.event_type, c.author, c.comment, c.removed_by"+
" FROM history h"+
" JOIN comment_history c ON c.comment_id = h.comment_history_id"+
" JOIN host ON host.id = c.host_id WHERE host.name = ?"+
" ORDER BY h.event_time"), hostname)
require.NoError(t, err, "select comment_history")
assert.Equal(t, expected, rows, "comment history should match")
}, 5*time.Second, 200*time.Millisecond)
testConsistency(t, stream)
if testing.Short() {
t.Skip("skipped comment expiry test")
}
})
t.Run("Downtime", func(t *testing.T) {
const stream = "icinga:history:stream:downtime"
type HistoryEvent struct {
Event string `db:"event_type"`
Author string `db:"author"`
Comment string `db:"comment"`
Cancelled string `db:"has_been_cancelled"`
}
hostname := utils.UniqueName(t, "host")
client.CreateHost(t, hostname, map[string]interface{}{
"attrs": map[string]interface{}{
"enable_active_checks": false,
"enable_flapping": true,
"enable_passive_checks": true,
"check_command": "dummy",
},
})
downtimeStart := time.Now()
author := utils.RandomString(8)
comment := utils.RandomString(8)
req, err := json.Marshal(ActionsScheduleDowntimeRequest{
Type: "Host",
Filter: fmt.Sprintf(`host.name==%q`, hostname),
StartTime: downtimeStart.Unix(),
EndTime: downtimeStart.Add(time.Hour).Unix(),
Fixed: true,
Author: author,
Comment: comment,
})
require.NoError(t, err, "marshal request")
response, err := client.PostJson("/v1/actions/schedule-downtime", bytes.NewBuffer(req))
require.NoError(t, err, "schedule-downtime")
require.Equal(t, 200, response.StatusCode, "schedule-downtime")
var scheduleResponse ActionsScheduleDowntimeResponse
err = json.NewDecoder(response.Body).Decode(&scheduleResponse)
require.NoError(t, err, "decode schedule-downtime response")
require.Equal(t, 1, len(scheduleResponse.Results), "schedule-downtime should return 1 result")
require.Equal(t, http.StatusOK, scheduleResponse.Results[0].Code, "schedule-downtime result should have OK status")
downtimeName := scheduleResponse.Results[0].Name
// Ensure that downtime events have distinct timestamps in millisecond resolution.
time.Sleep(10 * time.Millisecond)
req, err = json.Marshal(ActionsRemoveDowntimeRequest{
Downtime: downtimeName,
Author: utils.RandomString(8),
})
require.NoError(t, err, "marshal remove-downtime request")
response, err = client.PostJson("/v1/actions/remove-downtime", bytes.NewBuffer(req))
require.NoError(t, err, "remove-downtime")
require.Equal(t, 200, response.StatusCode, "remove-downtime")
downtimeEnd := time.Now()
expected := []HistoryEvent{
{Event: "downtime_start", Author: author, Comment: comment, Cancelled: "y"},
{Event: "downtime_end", Author: author, Comment: comment, Cancelled: "y"},
}
if !testing.Short() {
// Ensure that downtime events have distinct timestamps in second resolution (for start time).
time.Sleep(time.Second)
expireStart := time.Now()
expireAuthor := utils.RandomString(8)
expireComment := utils.RandomString(8)
req, err := json.Marshal(ActionsScheduleDowntimeRequest{
Type: "Host",
Filter: fmt.Sprintf(`host.name==%q`, hostname),
StartTime: expireStart.Unix(),
EndTime: expireStart.Add(time.Second).Unix(),
Fixed: true,
Author: expireAuthor,
Comment: expireComment,
})
require.NoError(t, err, "marshal request")
response, err := client.PostJson("/v1/actions/schedule-downtime", bytes.NewBuffer(req))
require.NoError(t, err, "schedule-downtime")
require.Equal(t, 200, response.StatusCode, "schedule-downtime")
var scheduleResponse ActionsScheduleDowntimeResponse
err = json.NewDecoder(response.Body).Decode(&scheduleResponse)
require.NoError(t, err, "decode schedule-downtime response")
require.Equal(t, 1, len(scheduleResponse.Results), "schedule-downtime should return 1 result")
require.Equal(t, http.StatusOK, scheduleResponse.Results[0].Code, "schedule-downtime result should have OK status")
// Icinga only expires downtimes every 60 seconds, so wait this long in addition to the downtime duration.
time.Sleep(60*time.Second + 1*time.Second)
expected = append(expected,
HistoryEvent{Event: "downtime_start", Author: expireAuthor, Comment: expireComment, Cancelled: "n"},
HistoryEvent{Event: "downtime_end", Author: expireAuthor, Comment: expireComment, Cancelled: "n"},
)
downtimeEnd = time.Now()
}
for _, n := range nodes {
assertEventuallyDrained(t, n.RedisClient, stream)
}
if !eventually.Assert(t, func(t require.TestingT) {
var got []HistoryEvent
err = db.Select(&got, db.Rebind("SELECT h.event_type, d.author, d.comment, d.has_been_cancelled"+
" FROM history h"+
" JOIN host ON host.id = h.host_id"+
// Joining downtime_history checks that events are written to it.
" JOIN downtime_history d ON d.downtime_id = h.downtime_history_id"+
" WHERE host.name = ? AND ? < h.event_time AND h.event_time < ?"+
" ORDER BY h.event_time"),
hostname, downtimeStart.Add(-time.Second).UnixMilli(), downtimeEnd.Add(time.Second).UnixMilli())
require.NoError(t, err, "select downtime_history")
assert.Equal(t, expected, got, "downtime history should match expected result")
}, 5*time.Second, 200*time.Millisecond) {
t.Logf("\n%s", utils.MustT(t).String(utils.PrettySelect(db,
"SELECT h.event_time, h.event_type FROM history h"+
" JOIN host ON host.id = h.host_id"+
" LEFT JOIN downtime_history d ON d.downtime_id = h.downtime_history_id"+
" WHERE host.name = ?"+
" ORDER BY h.event_time", hostname)))
}
testConsistency(t, stream)
if testing.Short() {
t.Skip("skipped expiring downtime")
}
})
t.Run("Flapping", func(t *testing.T) {
const stream = "icinga:history:stream:flapping"
hostname := utils.UniqueName(t, "host")
client.CreateHost(t, hostname, map[string]interface{}{
"attrs": map[string]interface{}{
"enable_active_checks": false,
"enable_flapping": true,
"enable_passive_checks": true,
"check_command": "dummy",
},
})
timeBefore := time.Now()
for i := 0; i < 10; i++ {
processCheckResult(t, client, hostname, 0)
processCheckResult(t, client, hostname, 1)
}
for i := 0; i < 20; i++ {
processCheckResult(t, client, hostname, 0)
}
timeAfter := time.Now()
for _, n := range nodes {
assertEventuallyDrained(t, n.RedisClient, stream)
}
eventually.Assert(t, func(t require.TestingT) {
var rows []string
err = db.Select(&rows, db.Rebind("SELECT h.event_type FROM history h"+
" JOIN host ON host.id = h.host_id"+
// Joining flapping_history checks that events are written to it.
" JOIN flapping_history f ON f.id = h.flapping_history_id"+
" WHERE host.name = ? AND ? < h.event_time AND h.event_time < ?"+
" ORDER BY h.event_time"),
hostname, timeBefore.Add(-time.Second).UnixMilli(), timeAfter.Add(time.Second).UnixMilli())
require.NoError(t, err, "select flapping_history")
require.Equal(t, []string{"flapping_start", "flapping_end"}, rows,
"flapping history should match expected result")
}, 5*time.Second, 200*time.Millisecond)
testConsistency(t, stream)
})
t.Run("Notification", func(t *testing.T) {
const stream = "icinga:history:stream:notification"
hostname := utils.UniqueName(t, "host")
client.CreateHost(t, hostname, map[string]interface{}{
"attrs": map[string]interface{}{
"enable_active_checks": false,
"enable_flapping": true,
"enable_passive_checks": true,
"check_command": "dummy",
"max_check_attempts": 1,
},
})
users := make([]string, 5)
for i := range users {
users[i] = utils.UniqueName(t, "user")
client.CreateObject(t, "users", users[i], nil)
}
// Sort users so that the SQL query can use ORDER BY and the resulting slices can just be compared for equality.
sort.Slice(users, func(i, j int) bool { return users[i] < users[j] })
command := utils.UniqueName(t, "notificationcommand")
client.CreateObject(t, "notificationcommands", command, map[string]interface{}{
"attrs": map[string]interface{}{
"command": []string{"true"},
},
})
notification := utils.UniqueName(t, "notification")
client.CreateObject(t, "notifications", hostname+"!"+notification, map[string]interface{}{
"attrs": map[string]interface{}{
"users": users,
"command": command,
},
})
type Notification struct {
Type string `db:"type"`
User string `db:"username"`
}
var expected []Notification
timeBefore := time.Now()
processCheckResult(t, client, hostname, 1)
for _, u := range users {
expected = append(expected, Notification{Type: "problem", User: u})
}
processCheckResult(t, client, hostname, 0)
for _, u := range users {
expected = append(expected, Notification{Type: "recovery", User: u})
}
timeAfter := time.Now()
for _, n := range nodes {
assertEventuallyDrained(t, n.RedisClient, stream)
}
eventually.Assert(t, func(t require.TestingT) {
var rows []Notification
err = db.Select(&rows, db.Rebind("SELECT n.type, COALESCE(u.name, '') AS username FROM history h"+
" JOIN host ON host.id = h.host_id"+
" JOIN notification_history n ON n.id = h.notification_history_id"+
" LEFT JOIN user_notification_history un ON un.notification_history_id = n.id"+
` LEFT JOIN "user" u ON u.id = un.user_id`+
" WHERE host.name = ? AND ? < h.event_time AND h.event_time < ?"+
" ORDER BY h.event_time, username"),
hostname, timeBefore.Add(-time.Second).UnixMilli(), timeAfter.Add(time.Second).UnixMilli())
require.NoError(t, err, "select notification_history")
require.Equal(t, expected, rows, "notification history should match expected result")
}, 5*time.Second, 200*time.Millisecond)
testConsistency(t, stream)
})
t.Run("State", func(t *testing.T) {
const stream = "icinga:history:stream:state"
hostname := utils.UniqueName(t, "host")
client.CreateHost(t, hostname, map[string]interface{}{
"attrs": map[string]interface{}{
"enable_active_checks": false,
"enable_passive_checks": true,
"check_command": "dummy",
"max_check_attempts": 2,
},
})
type State struct {
Type string `db:"state_type"`
Soft int `db:"soft_state"`
Hard int `db:"hard_state"`
}
var expected []State
timeBefore := time.Now()
processCheckResult(t, client, hostname, 0) // UNKNOWN -> UP (hard)
expected = append(expected, State{Type: "hard", Soft: 0, Hard: 0})
processCheckResult(t, client, hostname, 1) // -> DOWN (soft)
expected = append(expected, State{Type: "soft", Soft: 1, Hard: 0})
processCheckResult(t, client, hostname, 1) // -> DOWN (hard)
expected = append(expected, State{Type: "hard", Soft: 1, Hard: 1})
processCheckResult(t, client, hostname, 1) // -> DOWN
processCheckResult(t, client, hostname, 0) // -> UP (hard)
expected = append(expected, State{Type: "hard", Soft: 0, Hard: 0})
processCheckResult(t, client, hostname, 1) // -> DOWN (soft)
expected = append(expected, State{Type: "soft", Soft: 1, Hard: 0})
processCheckResult(t, client, hostname, 0) // -> UP (hard)
expected = append(expected, State{Type: "hard", Soft: 0, Hard: 0})
processCheckResult(t, client, hostname, 0) // -> UP
processCheckResult(t, client, hostname, 1) // -> down (soft)
expected = append(expected, State{Type: "soft", Soft: 1, Hard: 0})
processCheckResult(t, client, hostname, 1) // -> DOWN (hard)
expected = append(expected, State{Type: "hard", Soft: 1, Hard: 1})
processCheckResult(t, client, hostname, 0) // -> UP (hard)
expected = append(expected, State{Type: "hard", Soft: 0, Hard: 0})
timeAfter := time.Now()
for _, n := range nodes {
assertEventuallyDrained(t, n.RedisClient, stream)
}
eventually.Assert(t, func(t require.TestingT) {
var rows []State
err = db.Select(&rows, db.Rebind("SELECT s.state_type, s.soft_state, s.hard_state FROM history h"+
" JOIN host ON host.id = h.host_id JOIN state_history s ON s.id = h.state_history_id"+
" WHERE host.name = ? AND ? < h.event_time AND h.event_time < ?"+
" ORDER BY h.event_time"),
hostname, timeBefore.Add(-time.Second).UnixMilli(), timeAfter.Add(time.Second).UnixMilli())
require.NoError(t, err, "select state_history")
require.Equal(t, expected, rows, "state history does not match expected result")
}, 5*time.Second, 200*time.Millisecond)
testConsistency(t, stream)
})
}
func assertEventuallyDrained(t testing.TB, redis *redis.Client, stream string) {
eventually.Assert(t, func(t require.TestingT) {
result, err := redis.XRange(context.Background(), stream, "-", "+").Result()
require.NoError(t, err, "reading %s should not fail", stream)
assert.Empty(t, result, "%s should eventually be drained", stream)
}, 5*time.Second, 10*time.Millisecond)
}
func assertStreamConsistency(t testing.TB, clients []*redis.Client, stream string) {
messages := make([][]map[string]interface{}, len(clients))
for i, c := range clients {
xmessages, err := c.XRange(context.Background(), stream, "-", "+").Result()
require.NoError(t, err, "reading %s should not fail", stream)
assert.NotEmpty(t, xmessages, "%s should not be empty on the Redis server %d", stream, i)
// Convert []XMessage into a slice of just the values. The IDs are generated by the Redis server based
// on the time the entry was written to the stream, so these IDs are expected to differ.
ms := make([]map[string]interface{}, 0, len(xmessages))
for _, xmessage := range xmessages {
values := xmessage.Values
// Delete endpoint_id as this is supposed to differ between both history streams as each endpoint
// writes its own ID into the stream.
delete(values, "endpoint_id")
// users_notified_ids represents a set, so order does not matter, sort for the comparison later.
if idsJson, ok := values["users_notified_ids"]; ok {
var ids []string
err := json.Unmarshal([]byte(idsJson.(string)), &ids)
require.NoError(t, err, "if users_notified_ids is present, it must be a JSON list of strings")
sort.Strings(ids)
values["users_notified_ids"] = ids
}
ms = append(ms, values)
}
sort.Slice(ms, func(i, j int) bool {
eventTime := func(v map[string]interface{}) uint64 {
s, ok := v["event_time"].(string)
if !ok {
return 0
}
u, err := strconv.ParseUint(s, 10, 64)
if err != nil {
return 0
}
return u
}
sortKey := func(v map[string]interface{}) string {
return fmt.Sprintf("%020d-%s", eventTime(v), v["event_id"])
}
return sortKey(ms[i]) < sortKey(ms[j])
})
messages[i] = ms
}
for i := 0; i < len(messages)-1; i++ {
assert.Equal(t, messages[i], messages[i+1], "%s should be equal on both Redis servers", stream)
}
}
func processCheckResult(t *testing.T, client *utils.Icinga2Client, hostname string, status int) time.Time {
// Ensure that check results have distinct timestamps in millisecond resolution.
time.Sleep(10 * time.Millisecond)
output := utils.RandomString(8)
reqBody, err := json.Marshal(ActionsProcessCheckResultRequest{
Type: "Host",
Filter: fmt.Sprintf(`host.name==%q`, hostname),
ExitStatus: status,
PluginOutput: output,
})
require.NoError(t, err, "marshal request")
response, err := client.PostJson("/v1/actions/process-check-result", bytes.NewBuffer(reqBody))
require.NoError(t, err, "process-check-result")
if !assert.Equal(t, 200, response.StatusCode, "process-check-result") {
body, err := ioutil.ReadAll(response.Body)
require.NoError(t, err, "reading process-check-result response")
it.Logger(t).Error("process-check-result", zap.ByteString("api-response", body))
t.FailNow()
}
response, err = client.GetJson("/v1/objects/hosts/" + hostname)
require.NoError(t, err, "get host: request")
require.Equal(t, 200, response.StatusCode, "get host: request")
var hosts ObjectsHostsResponse
err = json.NewDecoder(response.Body).Decode(&hosts)
require.NoError(t, err, "get host: parse response")
require.Equal(t, 1, len(hosts.Results), "there must be one host in the response")
host := hosts.Results[0]
require.Equal(t, output, host.Attrs.LastCheckResult.Output,
"last check result should be visible in host object")
require.Equal(t, status, host.Attrs.State, "state should match check result")
sec, nsec := math.Modf(host.Attrs.LastCheckResult.ExecutionEnd)
return time.Unix(int64(sec), int64(nsec*1e9))
}
type ActionsAcknowledgeProblemRequest struct {
Type string `json:"type"`
Filter string `json:"filter"`
Author string `json:"author"`
Comment string `json:"comment"`
}
type ActionsAcknowledgeProblemResponse struct {
Results []struct {
Code int `json:"code"`
Status string `json:"status"`
} `json:"results"`
}
type ActionsAddCommentRequest struct {
Type string `json:"type"`
Filter string `json:"filter"`
Author string `json:"author"`
Comment string `json:"comment"`
Expiry float64 `json:"expiry"`
}
type ActionsAddCommentResponse struct {
Results []struct {
Code int `json:"code"`
LegacyId int `json:"legacy_id"`
Name string `json:"name"`
Status string `json:"status"`
} `json:"results"`
}
type ActionsRemoveCommentRequest struct {
Comment string `json:"comment"`
Author string `json:"author"`
}
type ActionsProcessCheckResultRequest struct {
Type string `json:"type"`
Filter string `json:"filter"`
ExitStatus int `json:"exit_status"`
PluginOutput string `json:"plugin_output"`
}
type ActionsRemoveDowntimeRequest struct {
Downtime string `json:"downtime"`
Author string `json:"author"`
}
type ActionsScheduleDowntimeRequest struct {
Type string `json:"type"`
Filter string `json:"filter"`
StartTime int64 `json:"start_time"`
EndTime int64 `json:"end_time"`
Fixed bool `json:"fixed"`
Duration float64 `json:"duration"`
Author string `json:"author"`
Comment string `json:"comment"`
}
type ActionsScheduleDowntimeResponse struct {
Results []struct {
Code int `json:"code"`
Name string `json:"name"`
Status string `json:"status"`
} `json:"results"`
}
type ObjectsHostsResponse struct {
Results []struct {
Attrs struct {
State int `json:"state"`
StateType int `json:"state_type"`
LastCheckResult struct {
ExecutionEnd float64 `json:"execution_end"`
ExitStatus int `json:"exit_status"`
Output string `json:"output"`
} `json:"last_check_result"`
LastHardState int `json:"last_hard_state"`
LastHardStateChange float64 `json:"last_hard_state_change"`
LastState int `json:"last_state"`
} `json:"attrs"`
} `json:"results"`
}
type ObjectsEndpointsResponse struct {
Results []struct {
Name string `json:"name"`
Attrs struct {
Connected bool `json:"connected"`
} `json:"attrs"`
} `json:"results"`
}
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